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ALS基因组学全景

The panorama of ALS genomics
课程网址: http://videolectures.net/encals2017_mclaughlin_ALS_genomics/  
主讲教师: Russell McLaughlin
开课单位: 都柏林圣三一大学
开课时间: 2017-07-21
课程语种: 英语
中文简介:
ALS是一种复杂的疾病,没有单一的遗传或环境原因,也没有已知的治疗方法。虽然遗传力估计表明遗传风险因素在疾病中起着重要作用,但流行病学研究表明,患者一生中的多个独立累积风险也参与了疾病过程的触发。然而,识别和理解这些不同的遗传和(可能的)环境因素的性质和相互作用一直是一个挑战,这种不完全的理解一直是发展有效治疗ALS的最大障碍。基因组学领域的技术进步加速了对ALS的遗传危险因素的发现;这类研究的范围、规模和成本通常都很大。例如,涉及36000多个个体的全基因组关联研究(GWAS)已经确定了新的风险位点,并指出了ALS的多基因成分。对这种多基因风险的进一步分析表明,ALS和精神分裂症之间存在遗传相关性,这表明遗传风险因素是共有的,生物学上可能存在重叠。然而,GWAS的主要结论是ALS具有一种罕见的变异结构,其解释需要对ALS基因组进行更细致的分析和分析。为此,最近的一些研究通过对ALS患者的外显子(基因组的整个蛋白质编码部分)测序,确定了含有罕见ALS突变的基因。矿山项目联合会正在进行的工作正在扩展这种方法,以询问整个基因组中存在的所有罕见的遗传变异。随着研究的不断深入,ALS基因组学的整体观将有助于更有效地对患者进行分类,并识别出能够调和明显多样化的基因发现的中枢性疾病机制。本次讲座将探讨肌萎缩侧索硬化症基因组学的进展,并讨论迄今为止所采用的方法和技术的成功与不足。在ALS研究的未来途径将根据迄今为止的综合证据和最近的技术进步所提供的机会来讨论。
课程简介: ALS is a complex disorder, with no single genetic or environmental cause and no known cure. While heritability estimates show us that genetic risk factors clearly play an important role in the disease, epidemiological studies indicate that multiple separate accumulated risks over the lifetime of a patient also participate in triggering the disease process. However, identifying and understanding the nature of and interaction between these various genetic and (probable) environmental factors has been a challenge, and this incomplete understanding has been the greatest obstacle to the development of effective therapies for ALS. Technological advances in the field of genomics have accelerated the discovery of genetic risk factors for ALS; such studies have often been vast in scope, scale and cost. For example, genome-wide association studies (GWAS) involving up to 36,000+ individuals have identified novel risk loci and indicated a polygenic component to ALS. Further analysis of this polygenic risk has revealed a genetic correlation between ALS and schizophrenia, indicating shared genetic risk factors and potentially overlapping biology. However, the overarching conclusion from GWAS is that ALS has a principally rare variant architecture, the elucidation of which requires more fine-grained profiling and analysis of ALS genomes. To this end, a number of recent studies have identified genes that harbour rare ALScausing mutations by sequencing the exomes (the entire protein-coding portion of the genome) of ALS patients. Ongoing work by the Project MinE Consortium is extending this approach to interrogate all rare genetic variation present across the entire genome. As discoveries continue to be made, a holistic view of ALS genomics will permit more effective patient categorisation and the identification of central disease mechanisms that reconcile the apparently multifarious genetic findings. This talk will explore the advances made in ALS genomics and discuss the successes and shortcomings of the approaches and technologies that have been adopted to date. Future avenues in ALS research will be discussed in light of a synthesis of evidence to date and the opportunities afforded by recent technological advances.
关 键 词: 肌萎缩性脊髓侧索硬化症; 基因; 遗传
课程来源: 视频讲座网
数据采集: 2020-12-14:yxd
最后编审: 2024-01-22:liyy
阅读次数: 35